Details
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Enhanced Universal Platform System-on-Chip Processor
| Parameter | Description | Value |
|---|---|---|
| Part Number | EP9315-CBZ | |
| Type | Microcontroller | |
| Package | LQFP-64 (10x10mm) | |
| Operating Voltage | Supply Voltage Range | 2.7V to 5.5V |
| CPU Core | ARM926EJ-S | |
| Clock Frequency | Internal PLL | Up to 208 MHz |
| Flash Memory | On-chip Flash | 512 KB |
| RAM | On-chip SRAM | 64 KB |
| GPIO | General Purpose Input/Output Pins | 56 |
| ADC | Analog-to-Digital Converter | 10-bit, 8 channels |
| DAC | Digital-to-Analog Converter | 12-bit, 2 channels |
| Timers | General Purpose Timers | 4 x 16-bit |
| Communication Interfaces | UART, SPI, I2C, USB OTG | |
| USB | Universal Serial Bus On-The-Go | Full Speed (12 Mbps) |
| Temperature Range | Operating Temperature | -40°C to 85°C |
| Power Consumption | Active Mode | < 100 mA |
| Sleep Mode | Low Power Sleep Mode | < 1 μA |
| Wake-up Time | From Sleep Mode | < 2 μs |
| Watchdog Timer | Independent Watchdog Timer | Yes |
| Brown-out Detection | Brown-out Reset | Yes |
| Programming Interface | JTAG/SWD |
Instructions for Use
Power Supply:
- Ensure the supply voltage is within the range of 2.7V to 5.5V.
- Connect the VDD and VSS pins to the power supply and ground, respectively.
Clock Configuration:
- The internal PLL can be configured to generate a clock frequency up to 208 MHz.
- Use the external crystal or oscillator to provide a stable reference clock.
GPIO Configuration:
- Configure the GPIO pins as input or output based on your application requirements.
- Use the internal pull-up or pull-down resistors if needed.
ADC and DAC:
- Initialize the ADC and DAC modules using the provided registers.
- Configure the ADC channels and DAC outputs according to your application needs.
Timers:
- Set up the general-purpose timers for timing and counting tasks.
- Use the timer interrupts for event handling.
Communication Interfaces:
- Configure the UART, SPI, I2C, and USB interfaces for data communication.
- Ensure proper pin connections and protocol settings.
Low Power Modes:
- Utilize the sleep mode to reduce power consumption when the microcontroller is idle.
- Configure the watchdog timer and brown-out detection to ensure system reliability.
Programming:
- Use JTAG or SWD for programming and debugging the microcontroller.
- Follow the programming guidelines provided in the datasheet for optimal performance.
Thermal Considerations:
- Ensure adequate heat dissipation by following the recommended PCB layout and thermal design guidelines.
Software Development:
- Use the development tools and software libraries provided by the manufacturer to facilitate code development and testing.
For detailed information and specific register configurations, refer to the EP9315-CBZ datasheet and user manual.
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